Wearable sensing represents an effective manner to correctly recognize hand functional grasps. The need of wearability is strictly related to the minimization of the number of sensors, in order to avoid cumbersome and hence obtrusive systems. In this paper we present a wearable glove, which is able to provide accurate measurements from three joint angles. These measurements are then completed to reconstruct the whole hand posture, by exploiting a priori synergistic information on how human commonly shape their hands in grasping tasks. Results, although preliminary, show the effectiveness of the here described devices and methods and encourage to further investigate this kind of approach
The human hand represents a complex fascinating system with highly sensitive sensory capabilities an...
This work aims at defining a suitable postural synergies subspace for the DEXMART Hand from observat...
Grasp and manipulation is a complex task, deceivingly simple to accomplish for humans in everyday li...
Wearable sensing represents an effective manner to correctly recognize hand functional grasps. The n...
Achieving accurate and reliable kinematic hand pose reconstructions represents a challenging task. T...
Most of the neuroscientific results on synergies and their technical implementations in robotic syst...
We present an integrated sensing glove that combines two of the most visionary wearable sensing tech...
Low–cost sensing gloves for reconstruction posture provide measurements which are limited under seve...
Abstract—This paper investigates the optimal design of low-cost gloves for hand pose sensing. This p...
The actual movement and the coupled relationship of human fingers are very important for the analysi...
Bending sensors enable compact, wearable designs when used for measuring hand configurations in data...
Sensorized garments represent a breakthrough in wearable sensor technology. Sensorized garments have...
Capturing finger joint angle information has important applications in human–computer interaction an...
This work aims at defining a suitable postural synergies subspace for the DEXMART Hand from observat...
The human hand represents a complex fascinating system with highly sensitive sensory capabilities an...
This work aims at defining a suitable postural synergies subspace for the DEXMART Hand from observat...
Grasp and manipulation is a complex task, deceivingly simple to accomplish for humans in everyday li...
Wearable sensing represents an effective manner to correctly recognize hand functional grasps. The n...
Achieving accurate and reliable kinematic hand pose reconstructions represents a challenging task. T...
Most of the neuroscientific results on synergies and their technical implementations in robotic syst...
We present an integrated sensing glove that combines two of the most visionary wearable sensing tech...
Low–cost sensing gloves for reconstruction posture provide measurements which are limited under seve...
Abstract—This paper investigates the optimal design of low-cost gloves for hand pose sensing. This p...
The actual movement and the coupled relationship of human fingers are very important for the analysi...
Bending sensors enable compact, wearable designs when used for measuring hand configurations in data...
Sensorized garments represent a breakthrough in wearable sensor technology. Sensorized garments have...
Capturing finger joint angle information has important applications in human–computer interaction an...
This work aims at defining a suitable postural synergies subspace for the DEXMART Hand from observat...
The human hand represents a complex fascinating system with highly sensitive sensory capabilities an...
This work aims at defining a suitable postural synergies subspace for the DEXMART Hand from observat...
Grasp and manipulation is a complex task, deceivingly simple to accomplish for humans in everyday li...